Existence of the dark matter
As per the BHSSR, the pulled-in by the BH whirling spacetime, as a spinning elastic thin film, can modify the radial and angular distributions of the shear stress and the actual force defining the (regular) mass rotational velocity. Which will depend on the spacetime media “fluidity” in the same way as it depends on the water fluidity for the LV. Obviously, the spacetime “deformation” depending on the BH activity, may extend far beyond the disc of the observable regular mass and appear as an external halo influencing the galactic dynamics.

]]>By: Yehiel Gotkishttp://www.cosmosup.com/new-map-reveal-distribution-of-dark-matter-at-cosmic-scale/#comment-1782
Tue, 10 Jan 2017 02:08:19 +0000http://www.cosmosup.com/?p=6071#comment-1782I have observed a gravity-driven liquid vortex in a configuration limiting its major developments to proceed mostly in two dimensions in the upper thin liquid surface. The main question I was searching for an answer was – if the liquid vortex and the cosmic black hole vortex are similar, then what can I learn about the black holes from it? I have presented my summarizing notes on this matter at my page at Linked In and would like to show a couple of most intriguing points here.
Scrutinizing the vortex pulling-in phenomenon produced a shocking grasp.
• The liquid vortex developed structures very similar to the galaxy geometries when a handful of the dry shredded leaves was spread over the water surface.
• The liquid vortex evidently was sucking both the foam and floating leaves and certainly the upper liquid surface layer. If this or similar phenomenon takes place for the spinning black holes, then the black holes should be considered to pull-in not only the material objects but also the spacetime itself whirling around the black hole in the same way as water whirls while flowing into the liquid vortex.
• Being pulled into the black hole the nearby sections of the spacetime should be stretched more than at remote locations. Which could be observed by monitoring the wavelength of the cosmic microwave background in proximity to the supermassive black holes (expected to increase).
And the most intriguing point – this model allows to explain the well-known paradoxical observations, namely, the galaxy rotation curves anomaly and the Universe accelerated expansion, with no necessity to introduce the two famous but still challenging to prove, hypotheses:
• the black matter – the whirling spacetime additive contribution to the rotation of the visible matter in the black hole proximity,
and
• the black energy – at the galaxies periphery, where the pulling-in force diminishes, the still keeping on centrifugal force of the spinning spacetime accelerates the matter away from the black hole.
I believe I am not mistaken with these my speculations.
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